DE19510247A1 - Data transmission between prodn. stations and processing unit - Google Patents

Abstract

For the data transmission in both directions, between a data source (1) and a data processing station (3), the data to be sent are assembled into data blocks (11) in a given structure to be sent to at least one processing station. At the start of each transmission and/or as required, the data blocks are rewritten in the event that the data block structure cannot be identified. Also claimed is a prodn. assembly, and especially a spinner or ancillary units, with a machine (1) control and a memory to store operating parameters and/or monitored operating data, together with a data transmission system (7).

Description

The invention relates to a method for data transmission between a data source and a data sink, which in particular for the transmission of operating data (actual data) or Be drive parameters (target data) between the production machine and a central data processing system is suitable.

In larger production plants, there are usually several of the same type or different production machines with one or connected to several central data processing systems, which Control the production process globally and for this, for example Production parameters for a specific production machine transferred or the current production parameters of this measure Query machine or operating data of the machine, further processing and save.

For such communication between production machines or also additional units of production machines and central Data processing systems, which in a manner known per se can be networked, there are various data transmission systems drive known. These preferably correspond to the ISO reference model that the flow of a message transmission in hierarchy subdivided levels. Any of these Levels have certain tasks to perform, their processing be determined by specially selected protocols. The proto each regulate the exchange of information between Instan zen of the same level in different network nodes, d. H. both different communication participants. In addition, everyone has Level the possibility with the next higher and the next lower to communicate at a higher level. The advantage of this model be is that the tasks of the individual levels are simply ge designs and can be implemented programmatically.  

The ISO reference model consists of seven levels, namely the Transmission level, the security level, the network level, the Transport level, the control level, the display level and the application level (level 1 to level 7).

Levels 1 and 2 (bit transmission level and security level) can for example by a modem connection or known Networks such as Ethernet or Arcnet can be implemented. Dementia For levels 3 and 4 (network level and trans porttee) standard transmission protocols such as Z-Modem or TCP / IP can be used.

In addition to the best possible implementation of levels 1 to 4 is the implementation of levels 5 and 6 (control level and Dar position level) for efficient data transmission from special their meaning.

A well-known process, which is the starting point for the before represents lying invention, realizes the levels 5 and 6 of ISO reference model in such a way that the example of a production machine for central data processing individual data to be transferred to data blocks a predetermined structure summarized and using of the protocols of levels 1 to 4 via the transmission medium the central data processing system are transmitted. The Central data processing system is based on a stored th information about the predetermined structure is able to break the received data block into the individual data (or extract individual data) and process them further.

It offers the use of a predetermined structure for the data blocks to be transferred the advantage that not with each Date or data block the information about the structure and the Meaning of the date or the data block are also transferred must, resulting in a lower on the transmission medium Bit rate or shorter transmission times result.  

However, this known method has the disadvantage that at every new installation of a production machine or every die predetermined data block structure of a machine-changing software re-update the information about the data block structure of the be the machine in question also the central da processing facilities entered or made accessible that must. If the latter is forgotten or, for example at manu eller input, incorrectly carried out, so it can be next to a Data transmission between the machine in question and a central data processing system also to a fault operation of the production machine if the mismatch between that of the central data processing plant and the production machine used Data block description is not recognized and therefore it too an incorrect interpretation of the transmitted data. The same naturally applies to the case of data transmission from a central data processing system to a production machine, because in this case on the part of the data processing system the data block to be transmitted after a incorrect template is put together.

The invention is therefore based on the object of a method for data transmission between a data source and a data sink, especially between a production machine and one central data processing system and vice versa, which increases security during transmission and Interpretation of the transferred data blocks even with a new one installation of a production machine or changes regarding Lich has the data block structure of a production machine. In addition, the invention has for its object a Production machine or an additional unit of a production machine and an arrangement consisting of at least one Production machine or at least one additional unit and an associated central data processing system create, the inventive method for data transfer is realizable.  

The invention solves this problem with the features of the patent claims 1 and claims 11 and 12.

By transferring the structure of the data concerned data block description containing source at the beginning of each Sending process and / or if the data sink the structure of the If data blocks are unknown, there is the advantage that in all Rule - d. H. with an existing configuration of data sources len and data sinks - compared to the known method everyone if a small additional amount of data, namely the data block description to be transferred. In particular the needs wise transmission of the data block description enables the Advantage of improved security for new installations or Configuration changes practically without any additional Data transfer effort. Only if it actually exists New installation or change of configuration is done once the transmission of a data block description from the data source (for example a production machine) for data sink (at for example the central data processing system).

In one embodiment of the method according to the invention to transfer the data source before changing the structure of the corresponding data block description for transmit the following data blocks with a changed structure. This is useful, for example, if the data source of a change in the structure of the one it will send in the future Data blocks has knowledge. Sending the data block description can, for example, immediately before sending the first data blocks with a changed structure or on request the data source at any earlier time. The data sink can see the changed data block description Save reference to the relevant data source and in the future for the further processing of all sent from this data source Use data blocks.  

The transmission of a new or changed data block description Exercise of a certain data source can be carried out in another execution Form of the method according to the invention at the request of Data sink take place if the latter when checking a over carried data blocks an unknown structure of the data blocks detected. Checking the structure of a data block is preferably carried out for each transmitted data block. For this For example, each data block can contain header information hold based on which the data sink selects a particular one in the data block description stored in it. For this the header information must of course be unique.

In the preferred embodiment of the Ver Both the data blocks and the data block exist descriptions of one header information and one about matching number of sections. Each section one Data blocks are exactly one section of the associated data block description assigned which information about the Content and / or structure of one in the assigned section of the date contained in the data block. Every section the data description preferably includes the length of the date, the format of the date and the logical name of the date. This results in a simple, yet clear structure the data blocks and the associated data block descriptions.

A production suitable for realizing this process machine or a suitable additional unit of a product tion machine has a control unit for controlling the loading drives the machine or the auxiliary unit and one with it connected memory for storing operating parameters and / or detect on the machine or the additional unit operating data and a data transmission device, which the method for data transmission in the form of a Knowledge of the method by any specialist hardware or software implemented.  

A corresponding arrangement from at least one production machine or at least one additional unit and at least an associated central data processing system can also be constructed in a manner known per se, with each but the central data processing system a first data over carrying device and a first program for carrying out the Method and the at least one production machine or that at least one additional unit is a second data transmission direction and a second program for the implementation of the Ver may include driving.

Further embodiments of the invention result from the Subclaims.

The invention is described below with reference to a drawing illustrated embodiment explained. In the drawing demonstrate:

Fig. 1 is a schematic representation of networked data sources and data sinks for performing the method and

Fig. 2 is a schematic representation of the structure of the data blocks and data block descriptions.

Fig. 1 shows an arrangement of a plurality of the data source and / or data sink functioning units which are to be considered for the following description as a plurality of production machines 1 and as a single central data processing system 3. Of course, the method according to the invention can, however, also be implemented with several central data processing systems. The production machines 1 are connected by means of a data transmission network 5 known per se, which, as shown in FIG. 1, can have a physical bus structure. Of course, however, any other network topology can also be used for the method according to the invention.

Each production machine 1 comprises a device 7 for data transmission, which realizes the data transmission method according to the invention. In the same way, a data transmission device 9 is provided in the central data processing system 3 , which, like the data transmission devices 7 of the production machines 1 , includes hardware for connection to the data transmission network 5 and for controlling the data transmission. The hardware of the data transmission device preferably has a processor control which, in conjunction with a corresponding data preparation and communication software, enables the transmission of data from a specific production machine 1 to the central data processing system 3 . The actual communication software of the data transmission device 7 can be identical to that of the data transmission device 9 . If only the transfer of data (apart from the generally bidirectionally necessary transfer of components of the data transfer protocol) from the production machines 1 to the central data processing system 3 is provided, the data processing software of the data transfer device 7 and the data transfer device 9 can be designed differently.

However, if a transfer of data from the data processing system 3 to the production machines 1 is also provided in the reverse manner, then the data processing software is preferably of the same design in both cases. The transmission of data in the latter direction may be necessary, for example, in order to transmit production parameters from the data processing system 3 to a specific production machine 1 .

Of course, would also be conceivable data from a production machine 1 tion to another production machine 1 to be transmitted without going through the central Datenverarbei treatment plant to choose the third This would be conceivable, for example, in the event that a first production machine is optimized with regard to its mode of operation for a specific application and then the optimal operating parameters are transferred to further production machines 1 .

Depending on the need for data transfer from a production tion machine 1 to the central data processing unit 3 or vice versa, or from one production machine 1 to another production machine 1, each production machine and the central data processing unit can only as a data source or data sink, or both as data source and drain as a data act and be trained accordingly.

In the method according to the invention, just as in the known method to be further developed, the data to be transmitted are combined in the form of data blocks and accordingly transmitted block by block. Compared to the individual transmission of the separate data, this results in less protocol effort and thus a shorter transmission time or a lower required bit rate on the transmission medium, ie the data transmission network 5 .

In Fig. 1, the transmission of a data block 11 is shown schematically (in dashed lines) represented by a production machine 1 to the central data processing system 3.

As shown in FIG. 2, each data block 11 can consist of header information and a number of subsequent data (date 1 to date n). In the header information, for example, a machine identification (or the identification of the central data processing system), an identifier relating to the type of data to be subsequently transmitted, a logical description of the data block and the length of the data block (possibly including the header information) can be summarized.

The identifier can assume certain values, for example depending on whether the block to be transferred is a Data block, a data block description, a request from the Data blocks, a request for the data block description, a Initialization command to initialize a production machine with the default values, a command for setting Machine parameters on the transferred data values, a nega tive response, a positive response or a start of the telegram traffic etc.

The individual data possibly attached to the header information do not have to follow a fixed pattern and can freely join poses.

Each data block is assigned a specific data block description 13 , which, as shown in FIG. 2, also consists of header information and subsequent individual descriptions for each individual date of the data block 11 . The header information is preferably structurally identical to the header information of a data block 11 .

A special embodiment of the data transmission method according to the invention is described below, it being assumed that a data block 11 is to be transmitted from a specific production machine 1 to the central data processing system 3 .

At the beginning of the data transmission, the connection is established and the addressing of the central data processing system is carried out in a conventional manner, preferably using protocols from levels 1 to 4 of the ISO reference model. In the selected example, the impetus for starting the data transmission is from a certain production machine 1 . For this purpose, it sends a data block to the central data processing system, which has an identifier in its header information which indicates the start of the telegram traffic (alternate transmission of blocks consisting of any data). This identifier is recognized by the data transmission device 9 of the central data processing system 3 , whereupon the latter reacts by sending a confirmation of receipt. For this purpose, the data processing system 3 sends a data block to the relevant production machine 1 , the header information of which contains an identifier with a positive response (acknowledge).

This identifier is in turn recognized by the data transmission device 7 of the production machine 1 , whereupon it sends the actual data block with a specific compilation of individual data (date 1 to date n) to the data processing system 3 . This recognizes from the identifier of the data block that it is a data block in the true sense. Furthermore, the data processing system 3 or the data transmission device 9 examines the logical name of the data block, which is contained in the header information of the data block, and uses this to assign a corresponding data block description to the data block, which is preferably stored in the data processing system.

The data processing system recognizes that a corresponding Data block description available for the transmitted data block , it sends a data block with header information to the production machine, the identifier of which is a positive answer contains.

However, if the data processing system determines that there is no corresponding data block description, it sends a telegram with a request to transfer the data block description to the production machine. This telegram, of course, also consists of a data block with a corresponding header, with no date having to follow the header. In response to this, the production machine 1 sends the desired data block description 13 stored in a memory in the production machine to the central data processing system 3 , which preferably permanently stores it in a memory provided for this purpose.

Now the previously transmitted data block 11 can be broken down on the basis of the now available data block description 13 and the individual data can be further processed. Of course, the data block can also be saved first and processed at a later time using the data block description.

If the data block 11 was not temporarily stored, it can be transferred to the central data processing system in a corresponding manner and processed further on the basis of the data block description now available.

Of course, the start of the data transmission can also start from the central data processing system 3 , which addresses a corresponding production machine 1 and requests with a corresponding telegram for transmission of a data block present in the production machine in question. The data block 11 is then transmitted analogously to the method described above.

Furthermore, in the event that a certain production machine knows that the data block contained in it changed spelling (and therefore a certain probability There is a possibility that this is the data processing system is unknown), the changed data block description to the Transmit data processing system. This can be done immediately after the change and the restart of the  Production machine or at the beginning of the first data transfer between the production machine and a data sink.

If data, for example operating parameters for a production machine, are to be transmitted from the central data processing system 3 to a production machine 1 , this can also be carried out according to the method described above, only the production machine or the data processing system verifying the roles of a data source or data sink To deceive.

In this case, the data processing system first sends the data block to be transmitted which corresponds to a data block description, which is stored in the central data processing system 3 in relation to the production machine 1 in question. However, if the structure of the data block expected by the production machine has changed, the production machine sends a telegram with a negative answer (not acknowl edge) to the data processing system. The latter can then request the transmission of the new data block description in the manner already described above and, after receiving the same, can again transmit a data block corresponding to the new data block description to the production machine 1 .

With this transmission method it is thus known to transmission method is no longer required after a new installation of a production machine or a the structure of the data blocks to be sent or received influencing software change also in the central data management to make a corresponding correction because this automatically by the method according to the invention to be led. Compared to known methods, this therefore shows Method according to the present invention a higher security and reduces the effort for new installations or soft goods updates of production machines.

Claims (12)

1. Method for data transmission between at least one data source ( 1 ; 3 ) and at least one data sink ( 3 ; 1 ),

• a) in which the data source combines the data to be sent into data ( 11 ) with a predetermined structure and transmits it to at least one data sink and
• b) at the beginning of each transmission process and / or as required, a data block description ( 13 ) containing the structure of the data blocks is transmitted if the data sink or the structure of the data blocks is unknown.

2. The method according to claim 1, wherein the data source ( 1 ; 3 ) before a change in the structure of the data blocks to be transmitted ( 11 ) transmits a data block description ( 13 ) for the following data blocks with a changed structure. 3. The method according to claim 1 or 2, wherein the data source ( 1 ; 3 ) transmits a data block description ( 13 ) on request of the data sink ( 3 ; 1 ) if the data sink during an examination of a transmitted data block has an unknown structure of the data block detected. 4. The method according to claim 3, wherein the data sink ( 3 ; 1 ) checks the structure of each transmitted data block ( 11 ). 5. The method according to any one of the preceding claims, wherein the data blocks ( 11 ) and the data block description ( 13 ) each consist of header information and a matching number of sections, each section of a data block being assigned exactly one section of the associated data block description, which information contains the content and / or the structure of a date contained in the assigned section of the data block. 6. The method according to claim 5, wherein in each section of the data block description ( 13 ) the constant length of the assigned section of a data block contains the format of the date and the logical name of the date. 7. The method according to claim 5, wherein the individual sections of a data block ( 11 ) are terminated by a separator. 8. The method according to any one of the preceding claims, in which a plurality of data block descriptions ( 13 ) are stored in the data sink ( 3 ; 1 ). 9. The method according to any one of the preceding claims, wherein the data source ( 1 ; 3 ) is a production machine and the data sink ( 3 ; 1 ) is a central data processing system and / or vice versa. 10. The method according to claim 9, wherein the data (date 1 to Date n) operating data recorded on production machines (actual Data) or operating parameters (target data). 11. Production machine, in particular spinning machine, or additional unit of a production machine, in particular thread attachment for a spinning machine, with a control unit for controlling the operation of the machine ( 1 ) or the additional unit and an associated memory for storing operating parameters and / or at the Machine or the additional unit detected operating data and a data transmission device ( 7 ) which realizes the method according to one of the preceding claims. 12. Arrangement consisting of at least one production machine ( 1 ) or at least one additional unit according to claim 11 and at least one associated central data processing system ( 3 ), the at least one central data processing system having a first data transmission device ( 9 ) and a first program for carrying it out of the method according to one of claims 1 to 10 and the at least one production machine ( 1 ) or the at least one additional unit comprises a second data transmission device ( 7 ) and a second program for carrying out the method according to one of claims 1 to 10.